Q: We produce diesel generators with acoustic enclosures. We apply pure polyester powder coating on these enclosure parts.
Recently, we have been asked to install a generator at a location that is surrounded by heavy chlorine gas (and will continue to be throughout the life of the installation). Please suggest a suitable surface treatment and painting system for our enclosure parts to resist such an atmosphere.
What is the life expectancy of such a coating system? What would be the required frequency of recoating on-site to sustain the coating’s durability?
A: You are wise to consider using a more durable powder technology than polyester chemistry for this hostile chemical environment. First let’s talk about metal pretreatment. The steel must be completely cleaned and devoid of any oxidation. The best cleaning technique would involve a high-quality alkaline cleaner followed by a water rinse. Next stage should be a high-quality iron phosphate conversion coating followed by two rinses, clean water, and then a deionized water rinse. The final stage should be a seal that can be either chromate based or an organic alternative.
The parts should then be thoroughly forced-air dried in an oven and cooled before the powder coating application. Your choice of powder will depend on whether it is in an indoor or outdoor environment. I would assume that this is an indoor application from your explanation.
For indoor environments, I recommend that you use a functional-grade epoxy-based powder coating. These can be either phenolic-cured or amide-cured products. Either will work well. The powder coating should be applied to a thickness of at least 75 microns, but preferably 100-150 microns and thoroughly cured per the manufacturer’s recommendation. The color stability of epoxy powders is only marginal, so you can expect to see a variation of color for lighter shades.
For exterior environments, you have two choices: use an epoxy based primer followed by a polyurethane topcoat, or using a single coat of polyurethane. The two-coat system will provide the best overall durability, but you will need to take measures to ensure acceptable adhesion of the polyurethane to the epoxy. The best process is to slightly undercure the epoxy primer, then apply the polyurethane and fully bake the two-coat system.
Both the epoxy and polyurethane can resist chlorine gas if formulated and applied properly. Recoating should not be necessary for a long time. I strongly recommend that you test any coating system thoroughly before committing to a commercial process. It would make sense to coat a number of test panels with the systems described here and expose them to the service environment targeted to determine if the products will withstand the possible chemical attack.